Variable-speed device.



No. 760,757. PATEN'IED AUG. 2, 1904. W. E. CRANE, DEGD.

A; R. JOHNSON, ADMINISTRATOR.

VARIABLE SPEED DEVICE.

APPLICATION FILED NOV. 24, 1900.

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v//T/VESSES NO. 766,757. PATENTED AUG. 2, 1904. W. E. CRANE, DECD.

A. N. JOHNSON, ADMINISTRATOR.

VARIABLE SPEED DEVICE.

1 APPLIUATION FILED NOV. 24, 1900. N0 MODEL. 3 SHEETS-SHEET 2.

FIG. 2

WTNESSES [N VEN TOR.

W/f 19M/MNM,

I WQ, ATTORNEY.

PATENTED AUG. 2, 1904.

W. E. CRANE, DECD. R JOHN N VARIABLE SPEED DEVICE.

s FIG. 5

/NVETOR A TTORNEK UNITED STATES Patented August 2, 1904.

PATENT OEEIcE.

VALTER E. CRANE, OF DENVER, COLORADO; A. ROLAND JOHNSON ADMINISTRATOR OF SAID CRANE, DECEASED.

VARIABLE-SPEED DEVICE.

SPECIFICATION forming part of Letters Patent No. 766,757, dated August 2, 1904.

Application iiled November 24, 1900. Serial No. 37,596. (No model.)

T0 all whom it may concern:

Be it known that I, VALTER E. CRANE, a citizen of the United States, residing at Denver, county of Arapahoe, and State of Colorado, (and whose post-oflice address is 1661 Lincoln avenue,) have invented a new and useful Improvement in Variable-Speed Devices, of which the following is a specification.

My present invention relates to improvements in variable-speed devices in which there are two or more rotary members, as pulleys, gears, or sprocket-wheels, for the reception and transmission of driving force, the said members being' preferably mounted upon a central shaft, which may be either the driving or driven member. This variable-speed device constitutes two distinct means of variation of speed, one being a geared means giving stepped changes of speed and the other being a frictional means giving minute or gradual changes of either of the speeds of the geared means, the combination providing for any speed that maybe desired within the range of the device, which has a capacity of eight to one in speed ratios.

The objects of this invention are, first, to produce a variable-speed device of such a nature that the heavier portion of the work of transmission embodied in the slower nievements shall be positive; second, to provide a variable-speed device in which there shall be a frictional or gradual means for transmission of the lighter force in the more rapid movements of the device in order to effect all possible degrees of variation of speed; third, to provide a variable-speed device which shall be very compact and capable of being' placed upon machines providing only limited space; fourth, to provide a variable-speed device in which the range of variation is very extensive, as is required in many machines-"as, for instance, a lathe; fifth, to provide a variablespeed device which shall be instantly controllable both for the frictional means and for the step changes of the geared means, and, sixth, to provide a variable-speed device embodying a geared portion for the heavier part of the duty it is to perform, havingfrictional engaging' and releasing means to avoid thejar of sudden changes for the different speed-ratio adjustments. I attain these objects by means of the mechanism hereinafter described, and illustrated in the accompanying drawings, forming a part of this specilication, in which- Figure l is a longitudinal sectional elevation of the device; Fig. 2, a transverse elevation, partly in section, on line X X of Fig. l and through the center of the friction-wheels and their carriers as seen looking' to the right; Fig. 3, a partial transverse sectional elevation on line Y Y of Fig. l looking' to the left therein; Fig. A, a partial transverse sectional elevation on line Z Z of Fig'. l and looking to the right therein; Fig. 5, a transverse sectional elevation of the shaft friction device on line l lV of Fig. l and looking to the right therein; and Fig. 6, a View of the underside of the friction-wheel shown in Fig. l with the un- -der plate removed and part of the friction material being broken away to show the upper plate and expansion-segments.

Similar characters designate like parts in all the figures of the drawings.

The principal revolving' members preferably have peripheral driving-surfaces suitable for belts, though they may be gears or sprocket-wheels as well. l represent them in the drawings and this description as belt surfaces or pulleys as the preferred form.

A represents a speed-wheel, revolubly mounted to rotate about the central axis of the device, which is coincident with the center of the shaft S.

B represents a transmission-wheel or variation-wheel, mounted concentric with and for rotation in an adjacent parallel plane to the plane of revolution of speed-wheel A.

C represents an internal gear-ring, also revolubly mounted for rotation about the central axis of the device, and is supported from the variation-wheel B, as will be hereinafter explained. The periphery of ring C, as well as of wheels A and B, is suitable to having a belt run upon it, if so desired.

D represents the principal drive-gear of the device and is tixedly secured to the central shaft S, as by the key S', the said shaft be.- ing either the principal driving source for the device or the shaft which the device is to In this preferred pinion,fixed together for simultaneous revolution upon a stud I, rigid in an annular ring J, secured to the variation wheel B, and there are preferably two or more of the said studs I and the gears carried by them spaced equidistantly about the shaftS. The drawings representthree, but two would be equally effective. Thelocation of the studs I is such that the gears F are in engagement with the spur-gear E at their inner side and in engagement with the internal annular gear C at their outer side, and the pinions Gr are of a suitable size to be in engagement with' the drive-gear D at their inner side.

H represents a stationary or non-revoluble friction-disk located between the variationwheel B and drive-gear D and in a plane parallel therewith and having a tubular extension H' encircling the shaft S, which is revoluble therein. Rigidly secured to the sleeve H' is a flange and end-thrust cap H2, which is fixedly secured to some fixed object, as the frame of the machine to which the device is attached or the hanger-bearing of the shaft, (not shown,) being secured to the same by means of bolts or screws through the rcjecting lugs H3. Disk H is a retarding- The variation-wheel B is revolubly mounted upon the sleeve H' and has a tubular extension or sleeve B extending to the flange H2,

and the speed-wheel A is revolubly mounted upon this sleeve B', being provided at its outer end with an antifriction-bearing A',

which is in engagement with a ring H2, adjustably secured upon the cap H2.

The speed-wheel A, friction-disk H, and variation-wheel Bare the principal members of thefriction element of the device, which constitutes a lcomplete variable-speed device and is the subject of a separate application for patent of even date herewith and to which reference is made for modifications in some of V the minor parts thereof.

The variationwheel B is provided with a series of preferably three transmission or friction wheel'sK, which are rotatably mounted in oscillatable carriers inserted in openings B2A through. the web portion of the wheel B.` The carriers are designated in a general way by L, and consist of the inner segtrolling-ring B2.

edly secured the outer segment Lilbymeans of the ,pin L. The inner segment L' has a `longitudinal slot L6, in which is pivotally secured the connecting-link L7 by means of the pin L2. of the carrier L are in sustaining engagement with the surfaces B3 and B2, respectively, 'of the openings B2, and the side surfaces of the carriers L are in guiding and driving engagement with the longitudinal surfaces B5 of the said openings, in which the carriers are freely oscillatable. i l

The opposing surfaces of the web portion of the speed-wheel Aand stationary disk H are formed into similar concave annular surfaces A2 and H, and the curves ofthe said concave surfaces have coincident foci ora common center, and the center of oscillation of the series of carriers L is coincident with the said common center or foci. mission or friction wheels K, revolubly mounted in the said carriers, have a spherical periphery of a radius equal to the radius of the curve of the concave surfaces A2 and vHa and are in frictional contact therewith, be-

ing sustained in such frictional engagementl by means of the end-thrust bearing A'.

The exterior of the sleeve B' is provided with a longitudinal slot for each of the friction-wheels of the series, and slidably mounted in the said slots are the controlling-slides Bn, which terminate at the inner ends in the raised portions B2, which have the center portion cut away for the reception of the connecting-links L', pivoted therein by means of the pins B7. The outer ends of the controlling-slides B11 are secured to the interior of an annular controlling-ring B2, as by means of the screws B2.

Pivoted upon a stud or bolt M, which is fixed in some stationary part as a hangerbearing-for the shaft S, (not shown,) is acontrolling-lever M', which is provided with pins M2, projecting through slots in oneor both sides of cap H2, as represented in Fig. 1 by the curved dotted lines, the said pins l 2 projecting into the annular groove B9 of con- By swinging the controlling-lever M' from the position shown to the dotted position the controlling ring Bs is lmoved to the dotted position and the fric- The interior and exteriorsurfaces The trans- IOO IIO

intermediate position byplacing the lever l M' in a corresponding intermediate position, which is readily doneby the operator While the device is in operation. When constructed in the relative proportions shown, the adjustment of the carriers L and wheels K from one extreme position to the other causes a change of ,one-half in the relative speeds of lvI30- the wheels A andv B, or with the frictionwheels K in the position shown the speedwheel A will revolve twice as fast with reference to the rotation of wheel B as when the wheels K are in their opposite extreme position, (represented by the dotted lines.)

The friction-wheels K are constructed in such a manner as to be expansible for adjustment for wear, the friction material K being preferably of elastic material, as leather or paper, and being' clamped between the opposing iianges K2 and K3 by means of screws or rivets K* passing through the said friction material in slotted holes, as shown in Fig. 6. The exterior of the hub is an inclined or conical surface K5, and encircling the same is a series of segments K, having' a corresponding inclined interior surface, the said segments being' adjustable upon the inclined hub KD by means of adjusting-screws K7, which pass through slotted holes in the flange K2. The interior surface of the ring of friction material K is in contact with the exterior of the segments K, and hence the said friction material will be expanded by tightening the adjusting-screws K7.

The carriers L are free to move longitudinally in the openings B2 and are retained in their proper central position therein by means of the friction-wheels K, in engagement with the concave surfaces A2 and H5, and the said carriers therefore adjust themselves centrally and equalize the pressure between the said friction-surfaces after adjustment of inclination of the carriers.

Fixedly secured in the side of the variationwheel B outside of the disk H is an annular ring J, which has fixedly mounted in it two series of studs I and N, upon the studs I being revolubly mounted the double gears F and Cr, as previously stated, and upon the studs N are revolubly mounted a series of rollers O, preferably three in the series, located midway between the series of gears on studs I. These rollers O enter into the interior annular groove C ofthe ring C and by their contact therewith support the said ring C revolubly from the wheel B. The central interior surface of the ring C is formed into an internal gear, which engages with the series of gears F, as previously stated. Beyond the internal gear the interior of the ring C is formed into an interior friction-surface U, and located within the same is a fric- Y tion-band C, which will be more fully described later. The purpose of this frictional part of the ring C is to bring' the said ring to a state of rest or prevent the saine from revolving with the variation-wheel B to produce an accelerated movement of the shaft S from the rotation of the wheel B through the action of the double gears F and G and gear D, secured to the shaft S.

The periphery of the gear E adjacent to the gear portion is formed into an exterior fricnary manner.

tion-surface E', and surrounding the same is a friction-band E2, which will be referred to later. The object of this frictional engagement of the exterior of gear E is to bring the same to a state of rest or prevent the same from rotation with the shaft S and gear D, upon which it is mounted, for the purpose of producing a reduced movement of the shaft S with reference to the wheel B through the effect of the double or reducing gears F and G as they are carried about the gears E and D by the studs l in the wheel B.

The outer portion of gear E has formed within it an interior friction-surface E3, and the gear Eis retained in position upon the hub of gear D by means of the washer Ff, which is secured in position in any desired manner, preferably by being secured by screws to the end of the said hub of gear D.

Slidably mounted upon the shaft S adjacent to the gear E is a friction member P, which is prevented from turning with reference to the shaft S by means of the key or feather S, and encircling the inner end of the member P there are a series of expansible friction-segments P, of which there are preferably three in the series, the said friction-segments being in position and adapted to engage with the friction-surface E in the outer end of the gear E. The friction member P is provided with three radial slots P2, into which are pivoted by the pins P the adjustable links P", of which one part screws into the other and may be lcngthened or shortened by turning the outer part half of a turn with reference to the inner part. The end portions of the frictionsegments P are cut away to receive the outer parts of the links P", which are pivoted in the said segments by means of the pins PV. Diagonal clutch-notches PG are cut in the middle portion of the segments P, as shown in Fig. 5, and tixedly inserted in the clutch P are pins P7, suitably shaped to enter and engage the said clutch-notches P, and thereby provide driving force for the ring consisting of the segments P'. Upon the clutch P being moved toward the gear E the links P are tipped to a radial position because of the contact of the segments P with the gear E, and in being' so moved to a radial position they force outward the segments P into driving engagement with the gear E. rlhe clutch P is provided with an annular groove P, by means of which it is manipulated in the ordi- The construction of this friction-clutch is such that it will readily remain in its operative position because of the links PL being' carried fully to or slightly past the vertical position when the clutch is moved to the operative position. This friction-clutch may be termed the shaft-clutch or shaft-friction device, and its oflice is to secure the gear E to the shaft S and cause it to rotate therewith that the rotation of the wheel B may be communicated to the shaft S through the studs IOO IIO

I, double gears F and G, and gears D and E without modifying the speed of the wheel B in the said connection to shaft S.

FiXedly secured in a plate R, which is secured to some stationary object, as to a hangerbearing for shaft S, (not shown,) is a stud Q, whose radial position is in line with the center of the space between the friction-surfaces C2 and E3, and the inner end of the stud Q is an .enlarged cylindrical portion the opposite quarters of which are cut away, leaving the portions Q and Q2 shaped as shown in Fig. 4. To the outer part Q is secured one end of the friction-band C3, and to the inner part Q2 is securedone end of the friction-band E2.

Oscillatably mounted upon the stud Q is a controlling-block T, -the inner end ofV which is an enlarged cylindrical portion which has two opposite quarters cut away, leaving the portions T and T2, which project into the space between parts Q and Q2 and being in the same plane therewith. The cutting away of these parts is slightly more than a quarter in each case, and the portions TV and T2 therefore are permitted to oscillate slightly upon the stud'Q. Loosely secured to the portion T at its outer part is the opposite end of the friction-band C3, and pivotally secured to the inner portion T2 is the opposite end of the friction-band E2. The friction-band C3 abuts against shoulders Q3 and T3., which are adapted to force the friction-band C3 outward upon the block T, being oscillated in one direction, and thereby to forcibly engage the friction-surface C2 of the ring C and bring the same to a state of rest. By an opposite oscillatory movement of the block T, as indicated bythe arrow lin Fig. 4, the friction-band E2 will be caused to forcibly engage the friction-surface E', and will thus bring the gear E to a state of rest.

Passing through the upper portion of block T is a transverse` stud or bolt T2, bymeans of Ywhich a controlling-lever U is pivotally secured to the block T and by means of which the block Ais oscillated by the operator, the vlever U being secured in either of the eXtreme positions of oscillation in any of the usual Ways. The transverse movements of the lever U therefore operate either one of the frictions upon ring C and upon the exterior of gear E, and by means of the pivotal connection ofthe lever U to the block T and the curved transversefprojection U', which engages with Athe annular groove P8, the longitudinal move- .ment of the lever U is made to operate the friction-clutch P,by means of which the gear l E is secured to the rotating shaft and gear D. yIt isthus evident that the lever U gives complete control of the geared part of the device and that the same can be made to give three distinct speeds of the shaft S with reference to the wheel B, and-that the lever M' gives kcomplete control of the friction part of the device, by means of which gradual infinitesireference to wheel A.

In case the gears are proportioned with one hundred teeth for the internal gear C, iifty teeth for the gear E, twenty-five teeth for the gear F, fifteen teeth for the gear G, and sixty teeth for the gear D then by setting the friction in the internal gear C and bringing the same to a state of rest the shaft will be rotated at a speed of two revolutions to one revolution of wheel B. By releasing the friction on C and setting it upon the periphery of E the shaft will revolve at one-half the rate of revolution of B. By releasing'the friction on periphery of E and throwing in the friction-clutch, securing E to the shaft, the shaft will then revolve at the samespeed as wheel B.

The friction device gives a speed ratio of from onel and one-half to threeof wheel A with reference to wheel B, and hence it follows that by operating the two controllinglevers the speed of the shaft S may be from fifty to four hundred revolutions of the shaft from a speed of three hundred revolutions of Wheel A as a driving-wheel of the device.

The frictional part of the device embraced by the speed-Wheel A, variation-wheel B, with its transmission-wheels, and the retardingdisk H hasa speed-blending effect whereby the highest speed of the geared part of the device may be modified part yway from its highest speed to its medium speed and then from that speed part way to its slowest rate of speed and then from that speed to its lowest speed.

The resultant speed of the device, either at the shaft S or at the speed-wheel A, is the product of the speed ratio of the geared speedchanging device and of the speed ratio of the frictional speed-changing device.

The gear F operates as a modifying-gear, and the gears C and E are, in fact, fulcrumgears, the combined gears F and G constitutinga continuous lever. The gears C and E produce eect when they are retarded or stopped and may appropriately be termed i retarding-gears or fulcrum-gears. The gear C may be supported from a stationary part of the device, as from a hanger-bearing instead of from the variation-wheel B, as shown, the essential condition being that it may be revolubly mounted.

The retarding-gears may be stopped by positive means in any of the usual ways instead of being arrested by the friction means shown, but will then give a less smooth effect in making the change from one speed to another. Either the frictional or the positive means for stopping these fulcrum or retarding gears may be termed a retarding means.

An importantv feature of the frictional speed-modifying device is the expansibility of the transmission-Wheels, whereby they may be adjusted as they wear, and thus be kept up mal variations may be given to wheel B withA IOI) IIO

to size, andtliei'efoi'e in pi'opei' and su flieient frictional eng'agement with the opposing' frictional surfaces A2 and H).

The whole device is capable of i'eceivingits operative or driving force from the shaft S and of delivering its movement in any degree of modification fi'oiii the speed-wheel A asa driven wheel oi" as the driving-wlieel for a machine to be opei'ated, and the device will thus be used whei'e the requirements ai'e to speed up considei'ably from the soui'ce of power.

The belt may be shifted from speed-wheel A onto variation-wheel B, and thus get a different speed and a positive speed or one in which there is no possibility of slipping' of the transmission-wheels Is.. The belt may also be shifted past wheel B and onto wheel or i'ing' C, when by securing the wheel E a still different speed may be obtained.

It is also possible to have di'iving-belts fi'om two i oi' more of the wheels A, B, and C at one time to operate different machines oi' difl'erent parts of the same machine and at different speeds. It may likewise be convenient in some cases to drive the device fi'om a suitv able soui'ce of powei' to one of the wheels, as

the variation-wheel B, and to deliver power from both the shaft S and the speed-wheelA, in which case the two resultant speeds will be independently adjustable. The device is, as will be apparent, a double or duplex device for securing speed vai'iations and may be made to g'ive two separate oi' factor results of one combined oi' product effect.

Having thus described my invention, I claim as new, and desii'e to secure by Letters Patent of the United States, the following':

l. In a variable-speed device, the combination with a positive stepped speed-changing' device, embodying fulcrum-wheels arrested by friction means, of a frictional speed-modifying device, to modify the dierent speeds of the said stepped, speed-changing device.

2. In a vai'iable-speed device, the combination with a speed-wheel and retai'ding-disk, of a variation-wheel and oscillatable ti'ansmission-wheels carried thereby; and a geared speed-changing device, to obtain any possible speed within the range of the device.

3. In a variable-speed device, the combination with a positive stepped speed-changing device, of a speed-wheel and stationary retarding-disk; and a bodily-rotatable transmission device having oscillatable members in operative engagement with opposing concave sui'- faces of said speed-wheel and disk.

4. In a variable-speed device, the combination, with a stepped, geared, speed-changing device, of a speedwheel; a i'etai'ding disk; and an intermediate variation-wheel, carrying a sei'ies of transmissien-wheels.

5. In a variable-speed device, the combination with a stepped, geared speed-changing' device, of a speed-wheel; a rctarding-disk; an intermediate variation-wheel carrying a series of ti'ansmission-wheels; and means for oscillating' said ti'ansiiiissioii-wheels.

6. In a device of the class specified, the combination, with a fi'ictional speed-blending device, of a positive, stepped, speed-changing means; and frictional engaging' means for operating the said positive means.

T. In a device of the class specified, the conibnation, with a fi'ictional speed-blending device, of a positive, stepped, speed-changing means; anda separate friction means, for operating each of the speed changes of the said positive speed-changing means.

8. In a device of the class specified, the conibination with a speed-wheel and retardingdisk, having' complementary concave annular friction-surfaces, of an intermediate series of oscillatable and bodily-i'otatable transmission members in engagement with said fi'iction-surfaces; and a geared, stepped speed-changing' device, opei'ably connected with said series of transmission members.

9. In a device of the class specified, the combination with a speed-wheel and i'etai'dingdisk, of an intei'mediate vai'iation-wlieel, having a series of oscillatable transmission membei's in operative engagement with said speedwheel and disk; a shaft-gear; bodily-rotatable gears carried by said variation-wheel and in engagement with said shaft-gear; and controlling means whereby three different relative speeds between said shaft-gear and said variation-wheel may be secured.

10. In a device of the class specified, the conibination with a shaft-gear and a free gear con- IOO centric therewith, of a bodily-rotatable pinion and modifying-gear in engagement with said shaft-gear and free gear; a fulcrum-gear in engagement with said modifying-gear; abeltpulley revoluble with said pinion and modifying-geai'; a similar belt-pulley revoluble.

with said fulci'um-geai'; and means for controlling said fulci'iini-geai' and free gear.

11. Ina device of the class specified, the combination with a shaft-gear and a fi'ee geai'conv centric therewith, of a bodily-i'evoluble pinionV and modifying-gear in engagement with said sliaft-g'eai' and free gear; a fulcrum-gear in engagement with said modifying-gear; conti'olling means for said fulcrum-geai' and fi'ee gear; a variation-wheel i'evoluble with said pinion and modifying-gear; and a speed-wheel vai'iably i'evoluble with i'eference to said variation-wheel.

l2. Ina device of the class specified, -the conibination with a speed-wheel having' a belt-pulley, of a variation-wheel variably i'evoluble with reference to said speed-wheel, and also having' a beltpulley; a pinion and modifyinggear cai'i'ied by said variation-wheel; a shaftgear and a fi'ee geai' concentric therewith in engagement with said pinion and modifying- IIO IIS

gear; a fulcrum-gear in engagement with said modifying-gear; and means for controlling said free gear and fulcrum-gear, that a belt upon said variation-wheel may be positively driven at stepped speeds relative to said shaftgear, and a belt upon said speed-wheel may be driven at gradually-varying speeds relative to said shaft-gear.

13. In a device of the class specied, the combination with a power-shaft,of a pair of similar pulleys, one embodying a speed-wheel and the other a variation-wheel variably revoluble therewith; a positive stepped speed-'modifying device operatively connecting the said variation-wheel and shaft; and a fulcrum-wheel operatively engaging with said speed-modifying device and embodying a similar belt-pulley, that a belt may be run at stepped variations with reference to said shaft upon said fulcrum-wheel and said variation-wheel, and at graduated relative speeds upon said speedwheel.

14C. In adevice of the class specified, the combination with a speed-wheel embodying a beltpulley, of a variation-wheel variably revoluble with reference to said speed-wheel, and embodying a similar beltpulley; a pinion and modifying-gear carried by said variationwheel; a shaft-gear and a free gear concentric therewith in engagement with said pinion and modifying-gear; a fulcrum-gear in engagement with said modifying-gear, and embodying a similar belt-pulley; and friction means for stopping said fulcrum-gear and said free gear, and for revolubly connecting said free gear and said shaft-gear, that the power may be applied gradually to said belt-pulleys of the geared speed device, and different belt speeds be secured from a belt or belts on the respective belt-pulleys.

15. In avariable-speed device, the combination, with a rotatable drive-gear, of a pinion and modifying-gear mounted for bodily movement about said drive-gear; an internal gear in engagement with the outer side of said modifying-gear; a spur-gear in engagement .with the inner side of said modifying-gear; a

friction-band in position and vadapted to stop the said internal gear; a friction-bandin `po-A sition and adapted to stop the said spur-gear.;

and a friction-clutch, in position and-,adapted to secure the said spur-gear to the said drivegear, to revolve it therewith.

16. In a variable-speed device, the combina- I tion with a speed-wheel having a pulley-surface, and a stationary retarding-disk having similar concave annular friction-surfaces; an

posing retarding-disk, having similar, annu-v lar, concave friction-surfaces upon the` said speed-wheel and retarding-disk; an intermediate variation-wheel having a series of oscillatable carriers; a series of eXpansible transmission-wheels revolubly mounted in the said carriers, and in engagement with the said friction-surfaces; connecting-links pivoted in the said carriers; slides pivoted to the said links; and an annular controlling-ring secured to the said slides.

18. In a device of the class specified, the combination with a frictional speed-modifying device, of a stepped, geared, speed-changing device; a triplex controlling means for said geared device; and a controlling-lever, in position and adapted to give a higher speed ratio and a -loWer speed ratio by opposite transverse movements of the lever, and an intermediate ratio and a release, by opposite longitudinal movements of said lever.

In .testimony whereof I have hereunto set my hand and seal, this 7 th' day of November,

A. D. 1900, in the presence of two subscrib- 

